The impact of thermal conductivity and diffusion rates on water vapor transport through gas diffusion layers |
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| Authors: | Sergei F Burlatsky Vadim V Atrazhev Mallika Gummalla Dave A Condit Fuqiang Liu |
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| Affiliation: | aUnited Technologies Research Center, East Hartford, CT 06108, United States;bRussian Academy of Science, Institute of Biochemical Physics, Kosygin str. 4, Moscow, 119334, Russia |
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| Abstract: | Proper water management in a hydrogen-fueled polymer electrolyte membrane (PEM) fuel cell is critical for performance and durability. A mathematical model has been developed to elucidate the effect of thermal conductivity and water vapor diffusion coefficient in the gas diffusion layers (GDLs). The fraction of product water removed in the vapor phase through the GDL as a function of GDL properties/set of material and component parameters and operating conditions has been calculated. The current model enables identification of conditions wherein condensation occurs in each GDL component. The model predicts the temperature gradient across various components of a PEM fuel cell, providing insight into the overall mechanism of water transport in a given cell design. The water condensation conditions and transport mode in the GDL components depend on the combination of water vapor diffusion coefficients and thermal conductivities of the GDL components. Different types of GDLs and water transport scenarios are defined in this work, based on water condensation in the GDL and fraction of water that the GDL removes through the vapor phase, respectively. |
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| Keywords: | PEM fuel cells Gas diffusion layer Thermal conductivity Water management Water vapor transport |
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